Douglas E Bugner, Age 7035 Hearthstone Ln, Rochester, NY 14617

6365317, Apr 2, 2002

Jan 30, 2001

09/772636

Gregory E. Missell - Penfield NY
Douglas E. Bugner - Rochester NY

Eastman Kodak Company - Rochester NY

G03G 1320

430124, 430 99

A receiver material, especially a receiver sheet, for electrophotographic thermoplastic toner particles provides toner images of photographic quality and high gloss in both the toned and untoned areas of the sheet. The paper support of the receiver material is protected against moisture damage by a thermoplastic hold-out layer on which is formed a thermoplastic toner receiving layer that is adhesively compatible with the toner and with the hold-out layer. The receiver material, including support, hold-out layer and toner receiving layer, has a volume resistivity of 1. 0Ã10 to 1. 0Ã10 ohm-cm and can be electrostatically charged by back-side charging to receive toner by electrostatic transfer.

6440540, Aug 27, 2002

Feb 13, 2002

10/074982

Gregory E. Missell - Penfield NY
Douglas E. Bugner - Rochester NY

Eastman Kodak Company - Rochester NY

B41M 500

428195

A receiver material, especially a receiver sheet, for electrophotographic thermoplastic toner particles provides toner images of photographic quality and high gloss in both the toned and untoned areas of the sheet. The paper support of the receiver material is protected against moisture damage by a thermoplastic hold-out layer on which is formed a thermoplastic toner receiving layer that is adhesively compatible with the toner and with the hold-out layer. The receiver material, including support, hold-out layer and toner receiving layer, has a volume resistivity of 1. 0Ã10 to 1. 0Ã10 ohm-cm and can be electrostatically charged by back-side charging to receive toner by electrostatic transfer.

7569255, Aug 4, 2009

Sep 14, 2007

11/855377

Thomas J. Dannhauser - Pittsford NY, US
Douglas E. Bugner - Rochester NY, US
Sharon R. Girolmo - Livonia NY, US

Eastman Kodak Company - Rochester NY

B05D 5/04

4274071

A method of manufacturing an ink-receiving medium comprising the steps of providing a support, treating the support with a salt of a multivalent metal cation, and coating upon one or each side of the support at least one porous ink-receiving top layer from an aqueous coating composition consisting of non-cationic components, wherein the non-cationic components comprise a binder and anionic particles of average particle size less than 2. 5 microns, wherein the ink-receiving top layer comprises at least 50% of the total solids by weight, such that the water-soluble salt of a multivalent metal cation is able to diffuse into the ink-receiving top layer, the method further comprising drying the coating and optionally calendering the coating. Also disclosed is inkjet media made from such method and a method of printing using such inkjet media.

8034422, Oct 11, 2011

May 7, 2009

12/436816

Thomas J. Dannhauser - Pittsford NY, US
Douglas E. Bugner - Rochester NY, US
Sharon R. Girolmo - Livonia NY, US

Eastman Kodak Company - Rochester NY

B41M 5/00

428 3218, 428 3224, 428 3225, 428 3228, 428 3234, 428 3235

A manufacturing an ink-receiving medium comprising the steps of providing a support, treating the support with a salt of a multivalent metal cation, and coating upon one or each side of the support at least one porous ink-receiving top layer from an aqueous coating composition consisting of non-cationic components, wherein the non-cationic components comprise a binder and anionic particles of average particle size less than 2. 5 microns, wherein the ink-receiving top layer comprises at least 50% of the total solids by weight, such that the water-soluble salt of a multivalent metal cation is able to diffuse into the ink-receiving top layer, the method further comprising drying the coating and optionally calendering the coating. Also disclosed is inkjet media made from such method and a method of printing using such inkjet media.

8398223, Mar 19, 2013

Mar 31, 2011

13/076976

Douglas Eugene Bugner - Rochester NY, US
Barbara Boland Lussier - Rochester NY, US

Eastman Kodak Company - Rochester NY

B41J 2/17

347 95, 347100

A process for printing an image includes printing a substrate with an aqueous inkjet ink and drying the printed image with a near-infrared drying system, wherein the inkjet ink is a yellow or magenta inkjet ink and comprises a yellow or magenta colorant and a distinct near-infrared absorbing compound. Inkjet ink sets for use with an inkjet printing system employing a near-infrared drying system in the process include at least a black ink and a yellow ink, wherein the yellow ink comprises a yellow colorant and dispersed nanoparticulate colloidal silica at a concentration of from 0. 1 to about 10 wt %, and the black ink comprises a black colorant and dispersed nanoparticulate colloidal silica at a concentration of from 0 wt. % to at most of the wt. % of the dispersed nanoparticulate colloidal silica in the yellow ink.

2007020, Aug 30, 2007

Feb 28, 2006

11/364712

Kenneth Ruschak - Rochester NY, US
Thomas Nicholas - Rochester NY, US
Douglas Bugner - Rochester NY, US
Terry Schultz - Hilton NY, US

B05D 7/00

427407100

A method for making inkjet recording element comprising an absorbent support, a porous base layer nearest the support, a porous ink-receiving intermediate layer above the base layer, and a porous ink-receiving upper layer above the intermediate layer, wherein the base layer and intermediate layers are each present in an amount of at least 25 g/mand the total dry weight coverage of the base layer, the intermediate layer, and the upper layer is 60 to 130 g/min order to handle high fluxes of ink compositions during printing and to provide high gloss upon calendering.

5256510, Oct 26, 1993

Mar 2, 1992

7/844082

Douglas E. Bugner - Rochester NY
William Mey - Rochester NY
Dennis R. Kamp - Spencerport NY

Eastman Kodak Company - Rochester NY

G03G 1509

430 83

The present invention relates to a photoelectrographic element having a conductive layer in electrical contact with an acid photogenerating layer which is free of photopolymerizable materials and contains an electrically insulating binder and acid photogenerator. A dye which absorbs near-infrared radiation is included in the photoelectrographic element so that the element, when used in electrostatic copying, can be exposed with near-infrared radiation. A method for forming images with this element is also disclosed.

6264321, Jul 24, 2001

Aug 14, 1997

8/907825

Douglas Eugene Bugner - Rochester NY
Alfred John Amell - Spencerport NY
Douglas Edward Garman - Webster NY

Eastman Kodak Company - Rochester NY

B41J 201

347101

A recording process is provided for producing recorded images having enhanced durability. The process includes applying droplets of ink by means of an ink-jet printer or a pen plotter in an image-wise fashion onto the surface of an ink-receiving layer supported on a transparent, plastic film support to record an image thereon, contacting the surface of the ink-receiving layer containing the recorded image against an opaque or transparent substrate to form a composite of the supported ink-receiving layer and the opaque or transparent substrate so that the ink-receiving layer containing the recorded image is positioned between the substrate and the transparent, plastic film support and then applying sufficient heat and pressure to the composite thus formed to adhere or laminate the supported ink-receiving layer to the substrate so that the recorded image is protected by the transparent, plastic film against abrasion, smearing, fading and water damage.